KR100488257B1 - Weight Counterbalance System for Air-ship Structure test - Google Patents

Abstract

The present invention relates to a device for generating a load for compensating the weight of the test body or the weight of the jig in the structural test,

More specifically, by using a load display device, an adapter, an elastic cable, and a tension adjusting device between the lower side of the support beam and the test body, the load can be generated and adjusted at any position. It relates to a weight compensation device.

The present invention is the tension control device (1) for controlling the tension is connected to the test body (6) at the lower side,

An elastic cable 3 installed between the primary adapter 2 connected to the upper side of the tension control device 1 and the secondary adapter 4 on the upper side;

It is characterized in that it is provided between the secondary adapter (4) and the support beam (7) is made of a load display device (5) for displaying the compensation load by adjusting the length of the elastic cable (3).

Description

Weight Compensation System for Aircraft Structure Test {Weight Counterbalance System for Air-ship Structure test}

The present invention relates to a device for generating a load for compensating the weight of the test body or the weight of the jig in the structural test,

More specifically, by using a load display device, an adapter, an elastic cable, and a tension adjusting device between the lower side of the support beam and the test body, the load can be generated and adjusted at any position. It relates to a weight compensation device.

In the structural test of the aircraft, in order to add an accurate load to the test specimen, the initial position of the aircraft should be fixed by compensating the weight of the specimen or the jig.

Conventional weight compensation device for compensating the weight in the manner using the weight 10 and the pulley 11, as shown in Fig. 3, in addition to the load of the hydraulic actuator for application weight 10 as the weight corresponding to the weight There is a way to add.

This method suspends the weight 10 by the weight of the calculated weight at the end of the cable 12, the cable 12 goes up the vertical pulley in the desired position, down the horizontal pulley and back down vertically again for further connection. The problem is that the cable is caught in the pulley and the load change due to friction is a problem, and it is very difficult to construct a complicated device for installing the cable and the pulley.

In addition, the method of adding to the load of the hydraulic actuator for application has a disadvantage in that the difference in applied load occurs because it can not be precisely applied to the center of gravity position.

The present invention has been made to solve the above-mentioned drawbacks, and consists of a tension control device that can vary the length of the turnbuckle or puller, elastic cable and load display device of the elastic cable without requiring additional weight The tension is read by the load display device and the tension control device is used to adjust the length of the elastic cable to compensate for the correct weight.

According to the present invention, there is no change in the load after generating the load and compensating for the correct weight, thereby preventing a sudden increase in the compensation load according to the test specimen behavior.

The present invention is a tension control device for controlling the tension is connected to the test body on the lower side,

An elastic cable installed between a primary adapter connected to an upper side of the tension control device and an upper secondary adapter;

It is installed between the secondary adapter and the support beam is characterized in that consisting of a load display device for displaying the compensation load by adjusting the length of the bungee cord.

The present invention is a device for applying a load for generating a load in the structural test or to compensate for the weight of a test specimen or jig, etc., the first adapter of the upper tension adjusting device (1) connected to the test body 6 on the lower side Connect to (2).

The tension control device 1 uses a product that is easy to change the length, such as a turnbuckle, puller.

The secondary adapter 4 is installed above the primary adapter 2, and the elastic cable 3 is connected therebetween.

The elastic cable 3 has a linear load along its length, and the generated load can decrease and increase linearly with the displacement of the test specimen 6, and the elongation is constant to minimize the influence thereof. Do not cause abnormalities.

On the upper side of the secondary adapter 4, a load display device 5, which is an assembly consisting of a load cell or a scale, is attached to the secondary adapter 4, and suspended on the support beam 7 at the position where the load is to be placed. While reading the value is to change the length of the tension adjusting device (1) until the required load is generated.

The present invention having such a configuration is an apparatus for applying a load for compensating the weight of a test specimen or a jig using the tension of the elastic cable 3, and operates on the basis of the following.

: Extended length of elastic cable

: Original length of elastic cable

: Modulus of elasticity

: Compensation load

: Cross section of elastic cable (1 cross section × number of elastic cables)

: Length ratio of elastic cable

The above formula is a general formula and is widely used for strength analysis of materials.

Here, by increasing the number of elastic cables (3) while increasing the length of the elastic cable (3) to the original length does not exceed a certain value by using the tension control device (1) and load display device (5) connected It is a way to form a desired applied load.

To compensate the weight of the specimen 6 or jig, the load display device 5 is hung on the support beam 7 and the tension control device is read until the required load is generated while reading the value of the load display device 5. The tension of the elastic cable 3 is changed by changing the length of 1).

The elastic cable 3 has a linear load along its length, and the generated load decreases or increases linearly with the displacement of the test specimen 6, and in order to minimize the influence thereof, the elastic cable 3 The elongation rate does not occur above a certain value.

Therefore, even if a sudden displacement occurs in the state in which the test body 6 is loaded, the linearity of the load according to the length of the elastic cable 3 does not enter the test body 6 due to the change in linearity of the load according to the length of the elastic cable 3. It can be protected.

Therefore, the weight compensation can be performed while maintaining the test body 6 stably, and the compensated result can be confirmed up to the result by looking at the load display device 5, and the sudden load change caused by the change in posture of the test body 6 is absorbed. The damage caused by the compensation load can also be prevented.

The elastic cable 3 can freely adjust the number of installations according to the load or the compensating load of the test body 6, so that the load can be easily generated and adjusted at any position.

The present invention is composed of a tension control device that can vary the length of the turnbuckle or puller, and an elastic cable and a load display device without reading a separate weight to read the tension of the elastic cable to the load display device as a tension control device By adjusting the length of the elastic cable to provide an effect that can compensate for the correct weight.

According to the present invention, there is no change in the load after generating the load and compensating for the correct weight, thereby providing an effect of effectively preventing the structural load by preventing a sudden increase in the compensation load due to the operation of the specimen.

The present invention is to provide the effect of preventing the damage caused by the compensation load by absorbing a sudden load change in accordance with the change in the attitude of the test specimen.

The present invention implements a compensating load through a simple structure, thereby lowering manufacturing costs and enabling accurate load control.

1 is a perspective view of a preferred embodiment of the present invention

2 is a front view of a preferred embodiment of the present invention

Figure 3 is an illustration of a conventional weight compensation device

[Description of Symbols for Main Parts of Drawing]

1: tension control device 2: primary adapter

3: elastic cable 4: secondary adapter

5: Load display device

Claims (4)

A tension control device connected to the test body on the lower side to adjust the tension; An elastic cable installed between a primary adapter connected to an upper side of the tension control device and an upper secondary adapter, the linear cable generating a linear load along its length; The weight compensation device for an aircraft structural test is provided between the secondary adapter and the support beam consisting of a load display device for displaying the compensation load by adjusting the length of the elastic cable. The weight compensation device of claim 1, wherein the tension control device comprises a turnbuckle or a puller capable of giving a change in length. The weight compensation device for an aircraft structural test according to claim 1, wherein a plurality of elastic cables are installed in a longitudinal direction so that a load is linearly generated. The weight compensation device for an aircraft structural test according to claim 1, wherein the load display device is provided with a load cell or a scale for reading the tension of the elastic cable.